system and method for facilitating access to audo/visual content on an electronic device

ABSTRACT

A method and system for facilitating access to content on an electronic device is provided. Facilitating access involves maintaining a temporal log of metadata for content accessed by one or more users, segregated based on time slots; searching the log to detect a pattern related to the metadata for one or more times slots; and constructing a temporal usage profile based on the pattern. The temporal usage profile may be used for recommending appropriate content to a user at an appropriate time.

FIELD OF THE INVENTION

The present invention relates to presenting information to a user of an electronic device and in particular, to selectively presenting programming to a television (TV) viewer.

BACKGROUND OF THE INVENTION

Watching videos/TV programs is a common social activity in many homes. Different home users use a centrally placed TV (e.g., the living room TV) to watch their favorite TV programs at their convenient times. As a result, a TV usage log for a typical home TV tends to have a pattern that is influenced by the different user(s) watching and/or the time of the day/week. For example, the adults in a family may watch more news programs in the mornings, and the children in the family may watch more animated programs in the evenings and/or on the weekends.

Recommending TV programs to users based on their pattern of accessing similar programs is used in recommender systems. However, such systems do not provide recommendations based on temporal aspects of usage logs, and without a more in-depth identification of the type of programming a user likes to watch at different times.

BRIEF SUMMARY OF THE INVENTION

The present invention provides a method and system for facilitating access to audio/visual content of interest. One embodiment of facilitating access involves maintaining a temporal log of metadata for content accessed by one or more users, segregated based on time slots; searching the log to detect a pattern related to the metadata for one or more times slots; and constructing a temporal usage profile based on the pattern. The temporal usage profile may be used for recommending appropriate content to a user at an appropriate time.

These and other features, aspects and advantages of the present invention will become understood with reference to the following description, appended claims and accompanying figures.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 shows a functional block diagram of a network in which facilitating access to content is implemented, according to an embodiment of the present invention.

FIG. 2 shows process blocks implementing access to content by generating temporal usage profiles, according to an embodiment of the invention.

FIG. 3 shows a diagrammatical example of generating a temporal usage profile from an access usage logs, according to the invention.

FIG. 4 shows a functional block diagram of an example content recommending system for facilitating access to audio/visual content, according to the invention.

DETAILED DESCRIPTION OF THE INVENTION

The present invention provides a system and method for constructing temporal usage profiles from audio/visual content usage logs. One embodiment involves constructing temporal usage profiles from TV usage logs, and using such usage profiles in recommending content to the user. To provide useful recommendations to users, an example video recommender system according to the invention identifies and determines certain aspects of the user behavior and/or implicit preferences. For example, the system determines the types of videos (e.g., TV programs) a user likes to watch, in order to recommend appropriate videos to the user. Further, the system determines when the user likes to watch certain types of videos in order to recommend videos to the user at an appropriate time.

The system analyzes user TV viewing pattern/usage history to generate a profile, used to recommend videos at appropriate times to the user. The system constructs temporal (time-specific) usage profiles from TV usage logs that include historical details about the programs watched on a TV. The usage profiles are constructed so as to represent the type of programs and specific time periods (e.g., in a week) for user TV viewing patterns.

An implementation of constructing usage profiles for different time periods in a week (e.g., weekday daytime, weekend evening, etc.) is described below, and generally involves analyzing metadata information (e.g., title, genre and related keywords) related to the watched programs to identify prominent information comprising significant patterns such as the type of programs one or more users like to watch. The system analyzes TV usage patterns and recommends useful/interesting content (e.g., TV programs) to users at a time that will more likely be preferred by the user. The invention enables personalized video recommendation services on TV/STB (set-top box) platforms.

The system analyzes temporal aspects of the users' TV viewing patterns (e.g., the time and day of the week when a program is watched) to construct profiles and/or to recommend videos to users. The system analyzes keywords related to the programs to infer user preferences. The temporal aspect of the users' TV viewing pattern is included in the constructed usage profiles in addition to other types of information (e.g., genres, keywords). The temporal aspect, in particular, enables recommending useful/interesting videos to users at a time that will more likely be preferred by the user (as opposed to recommending the same set of videos, irrespective of the time and day of the week). The system does not require seed data of common viewer stereotypes or explicitly specified user preferences, to construct usage profiles.

Further, in constructing the temporal usage profiles, as the system considers related keywords (in addition to genre and title) for the programs watched by users, the system identifies user preferences/interests at a finer granularity and consequently, derives a more precise usage profile from the TV usage logs. Though a TV is used as an example herein, the present invention is applicable to other electronic devices such as consumer electronics (CE) devices. An example implementation for CE devices in a local area network (LAN), such as a home network, is described below, however the present invention is useful with electronic devices that are not in a network, and are not required to have access to the Internet. FIG. 1 shows a functional architecture of an example network (system) 10, such as a LAN of home devices, embodying aspects of the present invention. The network 10 comprises devices 20 such as appliances, a personal computer (PC) 21, CE devices 30 which may include content, and an interface 40 that connects the network 10 to an external network 50 (e.g., another local network, the Internet). The external network 50 can be connected to one or more servers 51. The network 10 can implement the Universal Plug and Play (UPnP) protocol or other network communication protocols (e.g., Jini, HAVi, IEEE 1394, etc.). The network 10 can be a wireless network, a wired network, or a combination thereof. Examples of CE devices include digital televisions (DTVs, PDAs, media players, etc.).

The network 10 further includes a content facilitator system 24 that constructs temporal usage profiles from audio/visual content usage logs for the DTV 30. One implementation constructs temporal usage profiles from TV usage logs, and uses such usage profiles in recommending content to the user.

To aid in the understanding of the function of the content facilitator system 24 initially, certain terminology definitions are provided below. Eight time periods in a week are considered, namely: weekday early-morning, weekday daytime, weekday evening, weekday late-night, weekend early-morning, weekend daytime, weekend evening, and weekend late-night. Monday through Friday is considered “Weekday” and Saturday and Sunday are considered as “Weekend”. Further, 4 am-9:59 am is considered “early-morning”, 10 am-5:59 pm is considered “daytime”, 6 pm-11:59 pm is considered “evening” and 12 am-3:59 am is considered “late-night”. The above time periods could be defined/configured in many different ways (e.g., split the day into only three time periods or consider Friday as “Weekend” as well).

In one scenario, the content facilitator system 24 constructs a temporal usage profile according to a process 100 in FIG. 2, including the following process blocks:

-   -   Block 101: Construct and/or periodically update a collective TV         usage log with information related to the TV programs being         watched on the TV by selection via remote control 31 (e.g.,         updating can be performed whenever a program is watched for more         than 10 minutes). The time and day of the week when a program is         watched, along with metadata information for the program (e.g.,         program title, genre(s)) and related keywords are included in         the usage log. The following assumptions are made in this         example:         -   a. The program metadata information is in the form of an EPG             (Electronic Program Guide), available on the TV or a STB             connected to the TV.         -   b. Significant keywords related to a program can be             identified and extracted from the program description or             subtitle information available in the EPG and/or the             program's closed captions using keyword extraction             techniques.     -   Block 102: Segregate the collective usage log into multiple         (e.g., eight) individual logs corresponding to multiple         different time periods (e.g., eight time periods defined above).         Alternatively, eight different individual logs can be         constructed in the previous step, instead of a collective log.     -   Block 103: Each of the multiple individual logs (e.g., weekday         daytime log, weekday evening log, etc.), is analyzed according         to the following sub-steps:         -   c. The total number of entries (N) available in the             individual log is determined.         -   d. The genres of the programs appearing in the log are             compiled into a single list (e.g., gList) and a weight for             each program genre “g” in the gList is determined as W(g) as             follows             -   i. The number of times the genre “g” appears in the log                 is identified and stored as n(g).             -   ii. Then, the number of unique programs in the log with                 this genre is identified as N_(u)(g). Unique programs                 include programs with distinct titles. In one example,                 the individual log has the following 3 entries among                 others:                 -   #1: TimePeriod: Weekday_Daytime, Title: “Friends”,                     Genre: “Sitcom”,                 -   #2: TimePeriod: Weekday_Evening, Title: “Seinfeld”,                     Genre: “Sitcom”,                 -   #3: TimePeriod: Weekend_Daytime, Title: “Seinfeld”,                     Genre: “Sitcom”.                 -   As such, the number of unique programs within the                     genre “Sitcom”, N_(u)(Sitcom)=2.             -   iii. The weight for the genre, W(g), is according to                 example relation (1) below:

$\begin{matrix} {{W(g)} = {\left( \frac{n(g)}{N} \right)^{\frac{1}{N_{u}}{(g)}}.}} & (1) \end{matrix}$

-   -   -   -    Relation (1) above lessens the influence of the users'                 preference for a particular program (e.g., the program                 “Seinfeld” in the usage log discussed in the previous                 step) on the weight W(g) for that program genre                 “Sitcom”. Also, the users' preference for a particular                 program is taken into account when calculating the                 weight W(g) for program titles. Alternatively, W(g) may                 be calculated simply as

$\frac{n(g)}{N}$

(essentially, identifying how frequently the genre “g” appears in the usage log).

-   -   -   e. The titles of the programs appearing in the individual             log are compiled into a single list (e.g., tList) and a             weight W(t) for each program title “t” in tList is             calculated as follows:             -   i. The number of times the title “t” appears in the                 individual log is identified and stored as n(t).             -   ii. The weight W(t) for a title “t” is according to                 example relation (2) below:

W(t)=n(t)/N.  (2)

-   -   -   f. Similarly, keywords related to the programs appearing in             the individual log are compiled into a single list (e.g.,             kList) and a weight for each keyword “k” in kList is             calculated as follows:             -   i. The total number of keywords available in the                 individual log is identified as “K”.             -   ii. The number of times the keyword “k” appears in the                 individual log is identified and stored as n(k).             -   iii. The weight W(k) for a keyword “k” is calculated                 using relation (3) below:

W(k)=n(k)/K.  (3)

-   -   Block 104: Using the various weights of the genres, titles and         keywords calculated in the above steps, and the temporal         information associated with the profile, a usage profile is         constructed. Example fields determined for the temporal usage         profile include:         -   i. A temporal tag that specifies the time period that the             usage profile corresponds to (e.g., Weekend+DayTime).         -   ii. A list of program genres (e.g., “News”) along with             corresponding weights (e.g., range between 0 and 1, such as             0.78).         -   iii. A list of program titles (e.g., “Seinfeld”) along with             corresponding weights (e.g., ranging between 0 and 1).         -   iv. A list of keywords along with corresponding weights.

For block 103 c above, an entry comprises a set of attributes related to the program that was watched by a user along with the time and day when the program was watched and the total duration (in minutes) the program was watched by the user. Attributes include keywords related to the program (extracted from closed captions embedded in the TV program stream and program description available from an Electronic Program Guide). EPG information may be provided by the cable provider or could be downloaded from some Internet sources such as zap2it. An example of an entry may be: “Tuesday, 6 P.M., 30 minutes, Title: The Oprah Show, Genre: Talk, Credits: Oprah Winfrey, Keywords: Chicago, Oprah Winfrey, President Bush”.

FIG. 3 shows an illustration 200 of constructing a temporal usage profile 202 from TV usage logs 204A-C for three days (e.g., Tuesday, Thursday, Friday). The periods 206 in the logs 204A-C correspond to programs watched by a user during weekday evenings. In this example, the entries marked within the circle 206 in the logs 204A-C include:

-   -   Log 204A: “Tuesday, 7 P.M., 20 minutes, Title: The Oprah Show,         Genre: Talk, Credits: Oprah Winfrey, Keywords: Chicago,         President Bush”;     -   Log 204B: “Thursday, 6 P.M., 60 minutes, Title: The Oprah Show,         Genre: Talk, Credits: Oprah Winfrey, Keywords: President Bush,         Barack Obama, US Elections”;     -   Log 204C: “Friday, 7:30 P.M., 30 minutes, Title: NewsHour with         Jim Lehrer, Genre: News, Credits: Jim Lehrer, Keywords:         President Bush, US Elections”.

Given these entries, the content facilitator system 24 constructs a temporal usage profile according to the process 100 in FIG. 2, according to the following example steps:

-   -   1. The temporal aspects (time and day watched) of the entries         are first analyzed. Since all the three entries occur on a         weekday and evening, the temporal tag is identified as         PhaseOfWeek: Weekday and TimePeriod: Evening.     -   2. A list of genres occurring in the entries is compiled and a         weight for each of those genres is as described. Weights for         genres “News” and “Talk” are calculated using the equation:

${W(g)} = \left( \frac{n(g)}{N} \right)^{\frac{1}{N_{u}}{(g)}}$

-   -   -   For g=“Talk”, N 3, n(g)=2, N_(u)(g)=2.

${W({Talk})} = {\left( \frac{2}{3} \right)^{\frac{1}{2}} = 0.814}$

-   -   -   For g=“News”, N=3, n(g)=1, N_(u)(g)=1.

${W({News})} = {\left( \frac{1}{3} \right)^{\frac{1}{1}} = 0.333}$

-   -   3. Then, a list of program titles occurring in the entries is         compiled and a weight for each of those titles is calculated as         described. Weights for titles “The Oprah Show” & “NewsHour with         Jim Lehrer” are calculated using the equation:

W(t)=n(t)/N

-   -   -   For title, t=“The Oprah Show”:: N=3 and n(t)=2,             -   W(“The Oprah Show”)=⅔=0.667         -   For title, t=“NewsHour with Jim Lehrer”:: N=3 and n(t)=1,             -   W(“NewsHour with Jim Lehrer”)=⅓=0.333

    -   4. Then, a list of keywords occurring in the entries is compiled         and a weight for each of those keywords is calculated as         described. Weights for keywords “Chicago”, “President Bush”, “US         Elections”, etc. are calculated using the equation:

W(k)=n(k)/N

-   -   -   For title, t=“Chicago”:: K=7 and n(k)=1,             -   W(“Chicago”)= 1/7=0.142         -   For title, t=“President Bush”:: K=7 and n(k)=3,             -   W(“President Bush”)= 3/7=0.428         -   For title, t=“US Elections”:: K=7 and n(k)=2,             -   W(“US Elections”)= 2/7=0.285.

    -   5. Then, the genres, titles and keywords with weights greater         than 0.35 are used to construct a temporal profile. Accordingly,         genre=Talk and News, title=“The Oprah Show” and         keyword=“President Bush” are used to construct the profile.

    -   6. The temporal profile is represented using XML. The various         elements, sub-elements and attributes that make up the Usage         Profile XML description are described below by example:         -   UsageProfile         -   UsageProfile is the root element in the Usage Profile XML             representation.         -   Id         -   Id is an attribute of the root element UsageProfile and,             when the profile is registered, uniquely identifies the             profile. Possible values of this attribute are:‘−1’ (the             profile is not registered) or a numerical value.         -   Name         -   Name is an attribute of the root element UsageProfile and             represents the name for the profile.         -   TemporalTag         -   TemporalTag is a sub-element of the root element             UsageProfile. It further comprises two sub-elements:             PhaseOfWeek and TimePeriod.         -   PhaseOfWeek         -   PhaseOfWeek is a sub-element of the element TemporalTag.             Possible values of this element in the current             implementation include: Weekday and Weekend.         -   TimePeriod         -   TimePeriod is a sub-element of the element TemporalTag.             Possible values of this element in the current             implementation include: EarlyMorning, DayTime, Evening and             LateNight.         -   GenreWeightList         -   Genre WeightList is a sub-element of the root element             UsageProfile. It further comprises zero or more entries of             the sub-element: Genre Weight.         -   GenreWeight         -   GenreWeight is a sub-element of the element Genre             WeightList. It further comprises two sub-elements: Genre and             Weight.         -   Genre         -   Genre is a sub-element of the element Genre Weight. It takes             a xsd:string as a value and cannot be null.         -   Weight         -   Weight is a sub-element of the element GenreWeight. It takes             a xsd:double as a value and cannot be null.         -   TitleWeightList         -   Title WeightList is a sub-element of the root element             UsageProfile. It further comprises zero or more entries of             the sub-element: Title Weight.         -   Title Weight         -   Title Weight is a sub-element of the element Title             WeightList. It further comprises two sub-elements: Title and             Weight.         -   Title         -   Title is a sub-element of the element Title Weight. It takes             a xsd:string as a value and cannot be null.         -   Weight         -   Weight is a sub-element of the element Title Weight. It             takes a xsd:double as a value and cannot be null.         -   KeywordWeightList         -   KeywordWeightList is a sub-element of the root element             UsageProfile. It further comprises of zero or more entries             of the sub-element: KeywordWeight.         -   KeywordWeight         -   KeywordWeight is a sub-element of the element             KeywordWeightList. It further comprises two sub-elements:             Keyword and Weight.         -   Keyword         -   Keyword is a sub-element of the element KeywordList. It             takes a xsd:string as a value and cannot be null.         -   Weight         -   Weight is a sub-element of the element KeywordWeight. It             takes a xsd:double as a value and cannot be null.

FIG. 4 shows a functional block diagram of a content recommending system 60 that operates in conjunction with programming accessed (e.g., watched, recorded, etc.) using the DTV 30 (FIG. 1). The content recommending system 60 includes said content facilitator 24, a recommending module 64 and a user interface 66, according to an embodiment of the invention. The facilitator 24 includes a keyword extractor 70 implementing the process block 101 (above). In one example, the keyword extractor 70 extracts information from closed captions of a program using natural language processing (NLP) techniques and the Electronic Program Guide (EPG) information 75. The keyword extractor 70 operates on broadcast signals and processes a steady stream of closed caption text entering the system. The keyword extractor 70 maintains two history windows over the stream of incoming text. A smaller, most recent window, spans the last N (N=5 in our prototype) sentences (S_(i)) and a larger program wide window covers the entire TV program/current news story/current program section, etc. Only the keywords extracted from the program wide window are stored and indexed for temporal use profile constructions. Also, the keywords extracted from the most recent window are ranked higher than others. A closed caption (CC) Tokenizer function receives the stream of CC text and breaks it down into sentences. This is done in order to preserve the grammar of the text. A tagger function then tags sentences, e.g., using Brill's part-of-speech tagging. The tagger analyzes the sentence and determines how each word is used in the sentence. The tagger uses lexical rules to assign an initial tag to each word in a sentence, and then uses contextual rules to update the tag based on the context in which the word occurs. The contextual rules are sensitive to the grammar of the input sentence. Ungrammatical or incomplete sentences may result in incorrect tagging of the words in the sentence. In one example, for an input sentence: “John Wayne ran home”: The output of tagger would be:

John<PROP>Wayne<PROP>ran<VB_PST>home<NOUN>

This indicates that in the previous sentence, “John” and “Wayne” are used as proper nouns, “ran” is a verb in past tense and “home” is a noun.

This tagged sentence from the tagger is then passed on to a rule engine function which extracts keywords from the tagged sentence based on extraction policy rules from a rule library. A rule library, R, is an exhaustive set of rules that can be used to extract different kinds of phrases appearing in the sentence. The rules are represented as tag patterns. For example, it may have a rule to extract consecutive proper nouns (<PROP>+) and another rule to extract an adjective followed by one or more nouns (<ADJ> <NOUN>+), etc. A rule selector includes a mapping from genre to an extraction policy. The genre of the program being watched determines the type of keywords to extract from the closed captions. For example, if the program being watched is a high-content, factual program such as news, the extraction policy is highly aggressive, essentially extracting additional differing types of keywords (e.g., sequences of nouns, compound nouns, proper nouns, etc.). On the other hand, if the program is a low-content, non-factual program such as a sitcom, a very conservative extraction policy is used, extracting keywords very selectively, extracting only those keywords considered as having a higher likelihood of being useful (e.g., only proper nouns). The rule engine alters its extraction behavior depending upon the type of program being watched.

Each extraction policy, P_(e), corresponds to a subset of the rules in R. This mapping can either be preset, or it can be learned. The mapping essentially defines the kinds of patterns to be used for extracting keywords from a particular type (genre) of program. The rule engine applies the extraction policy on the text received from the tagger and extracts keywords from it. These keywords may then be weighted based on whether they occur in the most recent window. The weighted keywords are then ordered. The extracted keywords identify information of potential interest to the user(s), to be used for generating a temporal usage profile.

The content facilitator 24 further includes a log segregation module 80 implementing the process block 102 (FIG. 2) in generating individual logs 63 from the collective log 61, or in another example, the keyword extractor 70 may directly generate individual logs 63 instead of the collective log 61, as discussed in relation to block 102. The facilitator 24 further includes a compiling module 82 implementing the process block 103, and a usage profile constructing module 84 implementing the process block 104. The usage profile constructing module 84 generates a temporal usage profile 86, which can be utilized by the recommending module 64 to recommend content/information to user(s) on the user interface 66 that may be displayed on the DTV 30 (FIG. 1). For example, the recommending module 64 uses the temporal usage profile 86 for recommending videos at an appropriate time to user(s), such a program and time that is likely preferred by the user. Seed data such as common viewer stereotypes or explicitly specified user preferences, are not required in constructing the usage profile. Examining keywords related to watched programs helps identify user preferences at a finer granularity and derive a more precise usage profile.

The collective usage log 61 or individual logs 63 are generated using “keywords” provided by the Keyword Extractor 70 and EPG entries from the EPG Feed 75. A TV Program Monitor 70 a provides the date/time, duration and channel information corresponding to TV programs watched by the user.

In the above-described embodiment, temporal usage profiles may be generated programmatically from TV usage logs 61 (or 63). In an alternative embodiment according to the invention, explicit user preferences (e.g., preferences regarding types of programs user(s) would like to watch in general, on certain days, holidays, etc.) may be merged/blended with an automatically generated temporal usage profile to generate a more precise profile. In another embodiment, the weights for features (e.g., title and keywords) for a viewed program may be calculated in different ways.

For example: in the implementation described above, the weight for a title (W(t)) is calculated as below:

W(t)=n(t)N,

where, n(t) is the number of times a title t appears in the individual logs and N is total number of entries in the log. In another example, W(t) may also be calculated as:

${{W(t)} = \left( \frac{n(t)}{N} \right)^{\frac{1}{N_{u}}{(t)}}},$

where, N_(u)(t) is the number of unique programs in the log with the title t. In one example, the individual log has the following 3 entries among others:

-   -   #1: TimePeriod: Weekend_LateNight, Title: “Saturday Night Live”,         Host: “Tom Hanks”,     -   #2: TimePeriod: Weekend_LateNight, Title: “Saturday Night Live”,         Host: “Tom Hanks”,     -   #3: TimePeriod: Weekend_LateNight, Title: “Saturday Night Live”,         Host: “Carrie Underwood”.

The number of unique programs in this log with the title “Saturday Night Live” can be calculated as 2. Here, we are using the “Host” attribute in the program log to represent uniqueness of a program. Similarly, the “director” or “writer” attribute values may instead be used to represent the uniqueness of the program.

Further, other types of metadata for a watched program (e.g., actor, director, year of release) may also be analyzed by the keyword extractor 70 in addition to genre, title and keywords.

As noted, pre-defined time-spans (e.g., weekday evening, weekend daytime) are used to analyze the usage logs corresponding to said time-spans to create temporal usage profiles. Alternatively, a clustering or co-clustering approach may be applied over the TV usage logs to identify clusters of similar usage patterns and then create usage profiles for time-spans when the usage clusters recur.

As is known to those skilled in the art, the aforementioned example architectures described above, according to the present invention, can be implemented in many ways, such as program instructions for execution by a processor, as logic circuits, as an application specific integrated circuit, as firmware, etc. The present invention has been described in considerable detail with reference to certain preferred versions thereof; however, other versions are possible. Therefore, the spirit and scope of the appended claims should not be limited to the description of the preferred versions contained herein. 

1. A method for facilitating access to content on an electronic device, comprising: maintaining a temporal log of metadata for content accessed by one or more users, segregated based on time slots; searching the log to detect a pattern related to the metadata for one or more times slots; and constructing a temporal usage profile based on the pattern.
 2. The method of claim 1, wherein the metadata comprises electronic program guide information for audio/visual accessed content.
 3. The method of claim 1, wherein the metadata includes closed caption information for audio/visual accessed content.
 4. The method of claim 1, wherein the metadata includes keywords or tags related to accessed content.
 5. The method of claim 1, wherein detecting a pattern includes detecting a significant pattern based on electronic program guide information and closed caption information, for the accessed content.
 6. The method of claim 1, wherein: searching the log includes searching the metadata to detect a temporal metadata pattern and determining a numeric weight for metadata features in the detected pattern, the numeric weight representing potential user interest in corresponding accessed content; and constructing a temporal usage profile further includes constructing a temporal usage profile based on the numeric weight for the metadata.
 7. The method of claim 6, wherein detecting a pattern further includes determining a numeric weight for frequently appearing metadata features.
 8. The method of claim 1 further including recommending appropriate content at an appropriate time based on the temporal usage profile.
 9. An apparatus for facilitating access to content on an electronic device, comprising: a keyword extractor configured for maintaining a temporal log of metadata for content accessed by one or more users, segregated based on time slots; a compiling module configured for searching the log to detect a pattern related to the metadata for one or more times slots; and a temporal profile construction module configured for constructing a temporal usage profile based on the pattern.
 10. The apparatus of claim 9, wherein the metadata comprises electronic program guide information for audio/visual accessed content.
 11. The apparatus of claim 9, wherein the metadata includes closed caption information for audio/visual accessed content.
 12. The apparatus of claim 9, wherein the metadata includes keywords or tags related to accessed content.
 13. The apparatus of claim 9, wherein the compiling module is further configured for detecting a significant pattern based on electronic program guide information and closed caption information, for the accessed content.
 14. The apparatus of claim 9, wherein: the compiling module is further configured for searching the metadata to detect a temporal metadata pattern and determining a numeric weight for metadata features in the detected pattern; and the temporal profile construction module is further configured for constructing a temporal usage profile based on the numerical weight for the metadata.
 15. The apparatus of claim 14, wherein the compiling module is further configured for determining a numeric weight for frequently appearing metadata features.
 16. A system for facilitating access to content on an electronic device, comprising: a keyword extractor configured for maintaining a temporal log of metadata for content accessed by one or more users, segregated based on time slots; a compiling module configured for searching the log to detect a pattern related to the metadata for one or more times slots; a temporal profile construction module configured for constructing a temporal usage profile based on the pattern; and a recommending module configured for recommending appropriate content at an appropriate time based on the temporal usage profile.
 17. The system of claim 16, wherein the metadata comprises one or more of: electronic program guide information for audio/visual accessed content, closed caption information for audio/visual accessed content, keywords or tags related to accessed content.
 18. The system of claim 17, wherein the compiling module is further configured for detecting a significant pattern based on the metadata, for the accessed content.
 19. The system of claim 18 wherein: the compiling module is further configured for searching the metadata to detect a temporal metadata pattern and determining a numeric weight for metadata features in the detected pattern; and the temporal profile construction module is further configured for constructing a temporal usage profile based on the numerical weight for the metadata.
 20. The system of claim 19, wherein the compiling module is further configured for determining a numeric weight for frequently appearing metadata features.
 21. The system of claim 19 wherein: the compiling module is further configured for detecting a pattern for metadata features including one or more of: genre, title, keyword, or tag information; the compiling module is further configured for determining a numerical weight for said metadata features; and the temporal profile construction module is further configured for constructing a temporal usage profile based on one or more of the numerical weights, indicating potential user interest in content related to the corresponding accessed content.
 22. A program product stored on a computer useable medium for facilitating content access for users of an electronic device, the program product comprising program code for causing a computer system to perform the following steps: maintaining a temporal log of metadata for content accessed by one or more users, segregated based on time slots; searching the log to detect a pattern related to the metadata for one or more times slots; and constructing a temporal usage profile based on the pattern.
 23. A computer-implemented method for facilitating information searching for a user of an electronic device, comprising: maintaining a temporal log of metadata for content accessed by one or more users, segregated based on time slots; searching the log to detect a pattern related to the metadata for one or more times slots; and constructing a temporal usage profile based on the pattern. 